Profiles Identifying Camera Capabilities

ABSTRACT

A computing device includes one or more camera systems, each camera system including software and/or hardware to provide various different camera-related capabilities. The camera system maintains one or more profiles, each profile identifying different capabilities of the camera system that the computing device is configured to use concurrently. The one or more profiles are provided to a program on the computing device, allowing the program to know which capabilities the computing device is configured to use concurrently. If a profile provided by the camera system indicates that the computing device is configured to use certain capabilities concurrently (e.g., capturing images and recording video at certain resolutions), then the program allows a user to select options for using those capabilities concurrently. However, if no such profile exists, the program does not allow a user to select options for using those capabilities concurrently.

RELATED APPLICATIONS

This application claims is a continuation of and claims priority to U.S.application Ser. No. 14/623,302, filed Feb. 16, 2015, entitled “ProfilesIdentifying Camera Capabilities That Are Usable Concurrently”, which inturn claims priority to U.S. Provisional Application No. 62/105,073,filed Jan. 19, 2015, entitled “Profiles Identifying Camera CapabilitiesThat Are Usable Concurrently” the disclosures of which are incorporatedby reference herein in their entirety.

BACKGROUND

As computing technology has advanced, the capabilities provided bycomputing devices such as tablets, laptops, smartphones, and so forthhas increased. These increased capabilities allow users to perform awide range of operations with their computing devices, but theavailability of these increased capabilities is not without itsproblems. One such problem is that the hardware constraints of thecomputing device may allow only certain combinations of capabilities tobe used concurrently, but these combinations may not be readily apparentto a user of the computing device. This can lead to user frustrationwith their computing devices when attempts are made to use anincompatible combination of capabilities.

SUMMARY

This Summary is provided to introduce a selection of concepts in asimplified form that are further described below in the DetailedDescription. This Summary is not intended to identify key features oressential features of the claimed subject matter, nor is it intended tobe used to limit the scope of the claimed subject matter.

In accordance with one or more aspects, a record of multiple profilesassociated with a first camera system of a computing device is accessed,each profile of the multiple profiles identifying multiple, differentcapabilities of the first camera system that the computing device isconfigured to use concurrently. An indication of the multiple profilesis provided to a program of the computing device to allow the program toknow which capabilities of the first camera system the computing deviceis configured to use concurrently. A request to concurrently use atleast two of the capabilities of the first camera system is receivedfrom the program. The program is allowed to concurrently use the atleast two capabilities in response to at least one of the multipleprofiles indicating the computing device is configured to allow theprogram to use the at least two capabilities concurrently.

In accordance with one or more aspects, multiple profiles associatedwith a first camera system of a computing device are obtained from thefirst camera system. Each profile of the multiple profiles identifiesmultiple, different capabilities of the first camera system that thecomputing device is configured to use concurrently. A combination ofcapabilities identified in one of the multiple profiles associated withthe first camera system that the computing device is configured to useconcurrently is selected. Ones of the capabilities identified in theselected combination are presented as user selectable capabilities ofthe first camera system.

BRIEF DESCRIPTION OF THE DRAWINGS

The detailed description is described with reference to the accompanyingfigures. In the figures, the left-most digit(s) of a reference numberidentifies the figure in which the reference number first appears. Theuse of the same reference numbers in different instances in thedescription and the figures may indicate similar or identical items.Entities represented in the figures may be indicative of one or moreentities and thus reference may be made interchangeably to single orplural forms of the entities in the discussion.

FIG. 1 is a block diagram illustrating an example computing deviceimplementing the profiles identifying camera capabilities that areusable concurrently in accordance with one or more embodiments.

FIG. 2 illustrates an example camera profile record in accordance withone or more embodiments.

FIG. 3 illustrates an example computing device having multiple camerasystems in accordance with one or more embodiments.

FIG. 4 illustrates another example computing device having multiplecamera systems in accordance with one or more embodiments.

FIG. 5 illustrates example camera profile records of different camerasystems in accordance with one or more embodiments.

FIGS. 6, 7, 8, 9, 10, and 11 illustrate examples of different manners inwhich a program can use profiles to present, as user selectablecapabilities of the camera system, ones of the capabilities that can beused together in accordance with one or more embodiments.

FIG. 12 is a flowchart illustrating an example process for improvingusability of a device using the profiles identifying camera capabilitiesthat are usable concurrently in accordance with one or more embodiments.

FIG. 13 is a flowchart illustrating another example process forimproving usability of a device using the profiles identifying cameracapabilities that are usable concurrently in accordance with one or moreembodiments.

FIG. 14 illustrates an example system that includes an example computingdevice that is representative of one or more systems and/or devices thatmay implement the various techniques described herein.

DETAILED DESCRIPTION

Profiles identifying camera capabilities are discussed herein. Acomputing device includes one or more camera systems, each camera systemincluding software and/or hardware to provide various differentcamera-related capabilities. A capability of a camera system refers to amanner in which the camera system can operate. These capabilitiesinclude, for example, a photo capability to capture images at variousresolutions, a record capability to record video (and optionally audio)at various resolutions, and a preview capability to display a scenecurrently being viewed by the camera system (the current view of thecamera system) at various resolutions. Using these capabilities includesvarious combinations of executing software and/or using hardware of thecamera system. The camera system maintains one or more profiles, eachprofile identifying different capabilities of the camera system that thecomputing device is configured to use concurrently. For example, aprofile can identify one or more image resolutions that can be used tocapture images concurrently with the recording of video using one ormore video resolutions.

The computing device being configured to use particular capabilitiesconcurrently refers to the computing device (including the one or morecamera systems) being able to perform the particular capabilitiesconcurrently. Being able to perform the particular capabilitiesconcurrently refers to, for example, having the software processingability to perform the particular capabilities concurrently, having theappropriate hardware (e.g., processors, hardware, image sensors,buffers, etc.) to perform the particular capabilities concurrently, andso forth. Being able to perform the particular capabilities concurrentlycan also include a qualification of being able to perform the particularcapabilities concurrently at a particular rate or with a particularaccuracy or speed (e.g., so as to provide a desired performance level ofthe computing device).

The one or more profiles are provided to a program on the computingdevice, allowing the program to know which different capabilities thecomputing device is configured to use concurrently. For example, theprogram can readily determine whether the camera system of the computingdevice can be used to capture images at a particular image resolution(e.g., 12 megapixels) concurrently with recording video at a particularvideo resolution (e.g., 4K resolution). If a profile provided by thecamera system indicates that the camera system can capture images at theparticular image resolution concurrently with recording video at theparticular video resolution, then the program allows a user to selectoptions for capturing images at the particular image resolutionconcurrently with recording video at the particular video resolution.However, if no such profile exists, the program does not allow a user toselect options for capturing images at the particular image resolutionconcurrently with recording video at the particular video resolution.

The camera system profiles as discussed herein support various differentusage scenarios and provide various different technical effects. Theseuses and effects include improving operation, reliability, and usabilityof the computing device by allowing users to concurrently usecombinations of camera system capabilities that the camera system isable to support. Combinations of camera system capabilities that cannotbe used together concurrently can be readily identified using thetechniques discussed herein, and attempts to use such combinations canbe avoided. These uses and effects also include managing resources(e.g., capabilities of the camera system) in a manner that allows theresources to continue to operate as intended rather than operatingimproperly or not operating at all. These uses and effects also includesimplifying program development by making it straightforward fordevelopers of programs to determine which camera system capabilities canbe used concurrently, and provide a good user experience based on thosecapabilities.

FIG. 1 is a block diagram illustrating an example computing device 100implementing the profiles identifying camera capabilities that areusable concurrently in accordance with one or more embodiments. Thecomputing device 100 can be a variety of different types of devices,such as a desktop computer, a server computer, a laptop or netbookcomputer, a mobile device (e.g., a tablet or phablet device, a cellularor other wireless phone (e.g., a smartphone), a notepad computer, amobile station), a wearable device (e.g., eyeglasses, watch), anentertainment device (e.g., an entertainment appliance, a set-top boxcommunicatively coupled to a display device, a game console), atelevision or other display device, an automotive computer, and soforth. Thus, the computing device 100 may range from full resourcedevices with substantial memory and processor resources (e.g., personalcomputers, game consoles) to low-resource devices with limited memoryand/or processing resources (e.g., traditional set-top boxes, hand-heldgame consoles).

The computing device 100 includes a user input module 102, an outputmodule 104, a program 106, and a camera system 108. The camera system108 includes a preview module 112, an image capture module 114, a videorecord module 116, camera hardware 118, an interface module 120, and acamera profile record 122. Although particular functionality isdiscussed herein with reference to particular modules of the computingdevice 100 and/or the camera system 108, it should be noted that thefunctionality of individual ones of these modules can be separated intomultiple modules, and/or at least some functionality of multiple ones ofthese modules can be combined into a single module, and/or at least oneof these modules may not be included in the computing device 100.

The user input module 102 receives user inputs from a user of thecomputing device 100. User inputs can be provided in a variety ofdifferent manners, such as by pressing one or more keys of a keypad orkeyboard of the device 100, pressing one or more keys of a controller(e.g., remote control device, mouse, track pad, etc.) of the device 100,pressing a particular portion of a touchpad or touchscreen of the device100, making a particular gesture on a touchpad or touchscreen of thedevice 100, and/or making a particular gesture on a controller (e.g.,remote control device, mouse, track pad, etc.) of the device 100. Userinputs can also be provided via other physical feedback input to thedevice 100, such as tapping any portion of the device 100, an actionthat can be recognized by a motion detection or other component of thedevice 100 (such as shaking the device 100, rotating the device 100,bending or flexing the device 100, etc.), and so forth. User inputs canalso be provided in other manners, such as via voice or other audibleinputs to a microphone, via motions of hands or other body partsobserved by an image capture device, and so forth.

The output module 104 generates, manages, and/or outputs content (data)for display, playback, other presentation, storage, transfer,combinations thereof, and so forth. This content can be created by theoutput module 104 or obtained from other modules or programs of thecomputing device 100, such as the program 106. This content can be, forexample, a display or playback portion of a user interface (UI),captured images, recorded video, and so forth. The content can be outputto components of the computing device 100 (e.g., speakers, interactivedisplay devices, storage devices (e.g., disks or memory), etc.).Alternatively, the output module 104 can generate one or more signals tooutput the content to other devices or components (e.g., speakers,display devices, storage devices (e.g., disks or memory), etc.) that areseparate from the computing device 100.

The program 106 is any of a variety of different programs that accessthe camera system 108. The program 106 can be part of an operatingsystem of the computing device 100 and/or an application run by anoperating system of the computing device 100. The program 106 can be,for example, a camera program (e.g., for a user to capture images andrecord video), a video conferencing or other communication program thatcaptures images and/or records video, and so forth.

The camera system 108 includes various software and/or hardware toimplement various different image capture related and/or video recordingrelated functionality. Although a single camera system 108 isillustrated in FIG. 1, it should be noted that the computing device 100can include multiple camera systems, each analogous to the camera system108. For example, the computing device 100 may be a smartphone or tabletdevice and have both a camera system with a front facing lens (e.g., acamera lens capturing images and/or video from a same side or surface ofthe computing device 100 as a plane of a display of the computing device100) and a rear facing lens (e.g., a camera lens capturing images and/orvideo from an opposite side or surface of the computing device 100 as aplane of a display of the computing device 100).

The camera system 108 includes the preview module 112, the image capturemodule 114, the video record module 116, the camera hardware 118, theinterface module 120, and the camera profile record 122. The camerahardware 118 includes a lens, image sensor (e.g., a charge-coupleddevice (CCD) sensor or complementary metal-oxide semiconductor (CMOS)sensor), and optionally a light to illuminate a subject or scene beingcaptured by the image sensor. In a computing device 100 includingmultiple camera systems, each camera system can have its own lens, imagesensor, and light, or alternatively multiple camera systems can share alens, image sensor, and/or light. In one or more embodiments, themodules 112, 114, 116, and 120 are implemented as a driver (e.g., asoftware driver) associated with the camera hardware 118. Althoughillustrated as part of the computing device 100, at least part of thecamera hardware 118 can be implemented as a component separate from thecomputing device 100 (e.g., as a Web camera or other hardware that isseparate from the computing device 100 and coupled to the computingdevice by a wired or wireless connection).

The image capture module 114 provides a photo capability, managingcapturing of photographs (also referred to as still images or simplyimages) using the camera hardware 118. The video record module 116provides a record capability, managing the recording of video data usingthe camera hardware 118 (e.g., for storage, for transmission to anotherdevice via a video conference, etc.). The video record module 116optionally also manages the recording of audio data corresponding to thevideo data using a microphone(s) or other audio capture device. Themicrophone or other audio capture device can be included as part of thecamera hardware 118, or alternatively as separate hardware included inthe computing device 100. The preview module 112 provides a previewcapability, managing display of a current view being captured by thecamera hardware 118. The current view is displayed on a display deviceby the output module 104.

Each of the modules 112-116 has different capabilities. The capabilityof a module 112, 114, or 116 refers to the manner in which that modulecan operate. For example, the capability of the preview module 112refers to the manner in which the preview module 112 can operate todisplay the current view, the capability of the image capture module 114refers to the manner in which the image capture module 114 can operateto capture images, and the capability of the video record module 116refers to the manner in which the video record module 116 can operate tocapture video. The capabilities of a module 112, 114, or 116 can varybased on the desires of the developer of the module, the speed orquality of the components of the module, and so forth.

Table I illustrates example capabilities of the preview module 112. Itshould be noted that the capabilities described in Table I are onlyexamples, and that the preview module 112 can have various othercapabilities that are not described in Table I. Similarly, the previewmodule 112 need not have all of the capabilities described in Table I.

TABLE I Capability Description Resolution A resolution at which thecurrent view is displayed, such as 4K, 1080p, 720p, or 360p. Frame rateA rate at which frames of the current view are displayed, such as 60frames per second (fps), 30 fps, or 24 fps. Filtering What of multiplefilters are applied to the current view being displayed, such asconverting the current view to a sepia or grayscale display.

Table II illustrates example capabilities of the image capture module114. It should be noted that the capabilities described in Table II areonly examples, and that the image capture module 114 can have variousother capabilities that are not described in Table II. Similarly, theimage capture module 114 need not have all of the capabilities describedin Table II.

TABLE II Capability Description Image A resolution at which images arecaptured, such as 41 Resolution megapixels, 20 megapixels, 12megapixels, 8 megapixels, 4 megapixels, or 2 megapixels. Capture Rate Arate at which images can be captured, such as 8 images per second, 5images per second, or 1 image per second. Face Whether face detection issupported when capturing images. Detection Video Whether videostabilization is supported when capturing Stabilization images. VariableWhether capturing variable photo sequences (e.g., a series Photo ofimages each captured with different settings such as Sequence focus,ISO, exposure, exposure compensation) is supported when capturingimages. Photo HDR Whether image capture using HDR (high dynamic rangeimaging) is supported.

Table III illustrates example capabilities of the video record module116. It should be noted that the capabilities described in Table III areonly examples, and that the video record module 116 can have variousother capabilities that are not described in Table III. Similarly, thevideo record module 116 need not have all of the capabilities describedin Table III.

TABLE III Capability Description Video A resolution at which the videois recorded, Resolution such as 4K, 1080p, 720p, or 360p. Video A rateat which frames are recorded, such as 60 fps, Frame rate 30 fps, or 24fps. Face Whether face detection is supported Detection when recordingvideo. Video Whether video stabilization is supported Stabilization whenrecording video. Video HDR Whether video HDR is supported.

The modules 112-116 support various different capabilities, but thecamera system 108 (and thus the computing device 100) may not beconfigured to use all of these supported capabilities concurrently. Thiscan be due to, for example, the processing capabilities of theparticular software and/or hardware used to implement the modules112-116, the processing capabilities of other software and/or hardwareof the computing device, and so forth. For example, the preview module112 may support displaying a scene currently being viewed by the camerasystem at 4K resolution at 30 fps, the video record module 116 maysupport video recording at 4K resolution at 30 fps, and the imagecapture module 114 may support capturing 41 megapixel images at a rateof 5 images per second. However, the computing device 100 may notsupport all of these capabilities concurrently. For example, given thecamera hardware 118 the computing device 100 may support video recordingand image capture concurrently, but support the video record module 116recording video at 4K resolution at 30 fps only if the image capturemodule 114 is capturing images at 12 megapixel resolution or less. Byway of another example, given the camera hardware 118 the computingdevice 100 may support video recording and image capture concurrently,but support the image capture module 114 capturing 41 megapixel imagesat a rate of 5 images per second only if the video record module 116 isrecording video at 720p resolution or less.

The camera system 108 is associated with the camera profile record 122,which includes multiple profiles to facilitate identifying whichcapabilities of the camera system 108 can be used concurrently. Thecamera profile record 122 can be maintained on a storage device (e.g.,Flash memory or magnetic disk of the computing device 100), oralternatively be maintained in other memory of the computing device(e.g., the camera profile record 122 may be included as part of a camerasystem driver that is loaded into random access memory of the computingdevice 100). Each profile in the camera profile record 122 identifiesmultiple capabilities of the camera system 108 that can be usedconcurrently (also referred to as capabilities of the camera system 108that the computing device 100 is configured to use concurrently). Theinterface module 120 operates as an interface between the camera system108 and the program 106, receiving requests to use capabilities of thecamera system 108 from the program 106, and providing profiles from thecamera profile record 122 to the program 106, allowing the program 106to readily determine which capabilities of the camera system 108 can beused concurrently.

FIG. 2 illustrates an example camera profile record 200 in accordancewith one or more embodiments. The camera profile record 200 can be, forexample, the camera profile record 122 of FIG. 1. The camera profilerecord 200 includes multiple (m) profiles 202, each profile 202identifying which capabilities of the camera system 108 can be usedconcurrently. Which capabilities of the camera system 108 can be usedconcurrently can be determined by a vendor or designer of the camerasystem 108, and/or can be determined automatically (e.g., by a separatedevice or module attempting to use different combinations ofcapabilities concurrently and determining whether such attempts aresuccessful).

By way of example, assume that the profiles 202 include only threeprofiles: a profile 202(1), a profile 202(2), and a profile 202(3). Theprofile 202(1) includes one combination of capabilities that thecomputing device is configured to use concurrently, such as display ofthe current view by the preview module 112 at 4K resolution (or less) at30 fps, recording of video by the video record module 116 at 4Kresolution (or less) at 30 fps, but no image capture by the imagecapture module 114. The profile 202(2) includes another combination ofcapabilities that the computing device is configured to useconcurrently, such as display of the current view by the preview module112 at 720p resolution (or less) at 30 fps, no recording of video by thevideo record module 116, and image capture by the image capture module114 at a resolution of 41 megapixels (or less) and a rate of 5 imagesper second. The profile 202(3) includes another combination ofcapabilities that the computing device is configured to useconcurrently, such as display of the current view by the preview module112 at 720p resolution (or less) at 30 fps, recording of video by thevideo record module 116 at 720p resolution (or less) at 30 fps, andimage capture by the image capture module 114 at a resolution of 2megapixels (or less).

Continuing with this example, these three profiles 202(1), 202(2), and202(3) are provided to the program 106. The program 106 can then readilydetermine, based on these profiles, that if image capture at 41megapixels is desired, the camera system 108 can display the currentview by the preview module 112 but no video recording can be performed.The program 106 can also readily determine, based on these profiles,that if image capture, video recording, and current view display are alldesired, then the camera system 108 is limited to playing back thecurrent view at no more than 720p resolution at 30 fps, recording of thevideo at not more than 720p resolution at 30 fps, and capturing imagesat a resolution of no more than 2 megapixels.

In one or more embodiments, a set of typical user scenarios can beidentified and for each typical user scenario one of the profiles 202can be flagged or otherwise identified as being associated with thattypical user scenario. A profile 202 can be flagged or otherwiseidentified as being associated with a typical user scenario in variousmanners, such as by a particular value or indicator included as part ofthe profile, in a table mapping identifiers of profiles to typical userscenarios, and so forth. Various different typical user scenarios can beidentified, such as: Video Recording, High Quality Photo, Balanced Videoand Photo, Video Conferencing, and Photo Sequence. The Video Recordinguser scenario refers to situations in which video recording is mostimportant and other capabilities need not be supported. The High QualityPhoto user scenario refers to situations in which capturing high qualityimage is most important and other capabilities need not be supported.The Balanced Video and Photo user scenario refers to situations in whichconcurrent video recording and image capture is most important, and areboth to be supported. The Video Conferencing user scenario refers tosituations in which capturing images and/or recording video fortransmission to another computing device during a video conference ismost important, and is to be supported. The Photo Sequence user scenariorefers to situations in which capturing a series of photos quickly ismost important and other capabilities need not be supported.

A particular one of the profiles 202 can be flagged or otherwiseidentified as associated with each of these different scenarios. Whichprofiles are flagged or otherwise identified with which profiles 202 canbe determined by a vendor or designer of the camera system 108, and/orcan be determined automatically (e.g., by a separate device or moduleattempting to use different combinations of capabilities in differentuser scenarios determining which perform better (e.g., faster, with ahigher resolution, etc.)).

By way of example, a profile 202 having a combination of both videorecording capability and preview capability can be flagged or otherwiseassociated with the Video Recording user scenario. By way of anotherexample, a profile 202 having the highest resolution image capturecapability can be flagged or otherwise associated with the High QualityPhoto user scenario. By way of another example, a profile 202 havingboth video recording and image capture capabilities can be flagged orotherwise associated with the Balanced Video and Photo user scenario. Byway of another example, a profile 202 having a low resolution imagecapture capability and a low resolution video recording capability(resulting in lower power usage and lower latency when transmittingvideo or images to another computing device) can be flagged or otherwiseassociated with the Video Conferencing user scenario. By way of anotherexample, a profile 202 having the highest image capture capability canbe flagged or otherwise associated with the High Quality Photo userscenario. By way of another example, a profile 202 having the highestimage captures per second rate can be flagged or otherwise associatedwith the Photo Sequence user scenario.

Supporting these different user scenarios simplifies development of theprogram 106 by alleviating the program 106 of the need to determine whatcombination of capabilities is desired by the program 106. For example,if the program 106 is to establish a video conference connection withanother computing device, the program 106 can simply select the profileassociated with the Video Conferencing user scenario and need not beconcerned with what resolutions of video recording and/or image captureare used. By way of another example, if the program 106 desires tocapture images and record video concurrently, the program 106 can simplyselect the profile associated with the Balanced Video and Photo userscenario and need not be concerned with what resolutions of videorecording and/or image capture are used.

Returning to FIG. 1, although the computing device 100 is illustrated ashaving a single camera system, situations can arise in which thecomputing device 100 includes multiple camera systems. These camerasystems can each include camera hardware with a lens pointing indifferent directions, or alternatively each include camera hardware witha lens pointing in substantially the same direction (e.g., within athreshold number of degrees, such as 5 degrees, of the same direction).Each camera system can have the same or different capabilities, and eachcamera system in a computing device has a corresponding camera profilerecord and corresponding profiles. Each camera system has its own cameraprofile record and corresponding profiles, although camera profiles mayidentify camera profiles of other camera systems as discussed in moredetail below.

In one or more embodiments, each camera system in the computing device100 has the same capabilities, and is able to capture images, recordvideo, and display preview data at the same resolutions. Alternatively,different camera systems in the computing device 100 can have differentcapabilities, each being able to perform some combination of capturingimages, recording video, and/or displaying the current view at differentresolutions. Additionally, different camera systems can have imagesensors that operate in the same or different manners. For example, onecamera system can have an image sensor that senses light in the visualspectrum, and another camera system can have an image sensor that senseslight in the infrared (IR) spectrum.

FIG. 3 illustrates an example computing device 300 having multiplecamera systems in accordance with one or more embodiments. The computingdevice 300 has one side (e.g., a front side) with a display screen 302and a camera system with a front facing lens 304. The computing devicehas another side (e.g. a rear side) with a rear facing lens 306.

FIG. 4 illustrates an example computing device 400 having multiplecamera systems in accordance with one or more embodiments. The computingdevice 400 has a side (e.g., a rear side) with two different rear facinglenses: lens 402 and lens 404.

In situations in which a computing device has multiple camera systems,each camera system has a camera profile record (e.g., analogous tocamera profile record 200 of FIG. 2). Additionally, each profile for onecamera system of the computing device can identify one or moreadditional profiles for another camera system of the computing device,these one or more additional profiles identifying one or morecapabilities of the other camera system that the computing device isconfigured to use concurrently, and configured to use concurrently withthe one or more capabilities of the one camera system.

FIG. 5 illustrates example camera profile records of different camerasystems in accordance with one or more embodiments. Camera profilerecords 500 and 502 are illustrated, each of which can be a cameraprofile record analogous to the camera profile record 122 of FIG. 1. Thecamera profile record 500 is a camera profile record for a first camerasystem of a computing device, and the camera profile record 502 is acamera profile record for a second camera system of the computingdevice. The camera profile record 500 includes multiple (m) profiles504, each profile 504 identifying which capabilities of a first camerasystem of the computing device that the computing device is configuredto use concurrently. Which capabilities of the first camera system canbe used concurrently can be determined by a vendor or designer of thefirst camera system, and/or can be determined automatically as discussedabove. The camera profile record 502 includes multiple (n) profiles 506,each profile 506 identifying which capabilities of a second camerasystem of the computing device that the computing device is configuredto use concurrently. Which capabilities of the second camera system canbe used concurrently can be determined by a vendor or designer of thesecond camera system, and/or can be determined automatically asdiscussed above.

Each profile 504 optionally includes an identifier of (e.g., a pointerto) one or more profiles 506 that the computing device is configured touse concurrently with the capabilities of that profile 504. Similarly,each of the profiles 506 optionally includes an identifier of (e.g., apointer to) one or more profiles 504 that the computing device isconfigured to use concurrently with the capabilities of that profile506. For example, assuming that the computing device is configured toconcurrently use the capabilities of the second camera system indicatedin the profile 506(1) with the capabilities of the first camera systemindicated in the profile 504(2), then the profile 504(2) include anidentifier of the profile 506(1), and the profile 506(1) includes anidentifier of the profile 504(2), illustrated by a dashed arrow in FIG.5. Similarly, assuming that the computing device is configured toconcurrently use the capabilities of the second camera system indicatedin the profile 506(2) with the capabilities of the first camera systemindicated in the profile 504(2), then the profile 504(2) includes anidentifier of the profile 506(2), and the profile 506(2) includes anidentifier of the profile 504(2), illustrated by a dashed arrow in FIG.5. Thus, if a program desires to use capabilities of the two camerasystems concurrently, and desires to use particular capabilities of thefirst camera system, given the profiles 504 in the camera profile record500 (and any profiles 506 that are pointed to or otherwise identified bythe profiles 504) the program can readily determine which capabilitiesof the second camera system can be used concurrently with thoseparticular capabilities of the first camera system. Similarly, if aprogram desires to use capabilities of the two camera systemsconcurrently, and desires to use particular capabilities of the secondcamera system, given the profiles 506 in the camera profile record 502(and any profiles 504 that are pointed to or otherwise identified by theprofiles 506) the program can readily determine which capabilities ofthe first camera system can be used concurrently with those particularcapabilities of the second camera system.

By way of example, assume that the profile 504(2) includes a combinationof capabilities that can be used concurrently, such as display of thecurrent view by a preview module of the first camera system at 720presolution (or less) at 30 fps, recording of video by a video recordmodule of the first camera system at 720p resolution (or less) at 30fps, and image capture by an image capture module of the first camerasystem at a resolution of 2 megapixels (or less). Profiles 506(1) and506(2) each include a different combination of capabilities of thesecond camera system that the computing device is configured to useconcurrently with the capabilities of the first camera system identifiedin the profile 504(2). E.g., the profile 506(1) can include acombination of capabilities of the second camera system that thecomputing device is configured to use concurrently with the capabilitiesof the first camera system identified in the profile 504(2), such asdisplay of the current view by a preview module of the second camerasystem at 360p resolution (or less) at 30 fps, recording of video by avideo record module of the second camera system at 360p resolution (orless) at 30 fps, and no image capture by an image capture module of thesecond camera system. Thus, a program of the computing device canreadily determine, given profiles 504(2) and 506(1), that the computingdevice is configured to record video by both of the camera systemsconcurrently at 360p at 30 fps, but not record video by both of thecamera systems concurrently at 720p at 30 fps.

In the discussions above, reference is made to a set of typical userscenarios that can be identified and for each typical user scenario oneof the profiles can be flagged or otherwise identified as beingassociated with that typical user scenario. This flagging or otherwiseidentifying can include flagging or otherwise identifying profiles ofother camera systems as well. For example, the profile 504(2) and theprofile 506(1) can both be flagged or otherwise associated with aparticular user scenario.

In the discussion of FIG. 5, reference is made to two camera systems.However, it should be noted that analogous techniques can be applied toany number of camera systems. Each profile in a camera profile recordcan point to or otherwise identify one or more profiles of each of oneor more other camera systems in the computing device, indicating whichcapabilities of the one or more other camera systems the computingdevice is configured to use concurrently with the capabilitiesidentified in the profile. For example, the computing device may includea third camera system, and one or more of the profiles 504 can identifyprofiles of the third camera system identifying which capabilities ofthe third camera system of the computing device that the computingdevice is configured to use concurrently for the third camera system, aswell as use concurrently with capabilities identified in an identifiedone of the profiles 504 (and optionally in an identified one of theprofiles 506).

Returning to FIG. 1, the interface module 120 provides the profiles forthe camera system 108 to the program 106. The program 106 can use thesedifferent profiles to display or otherwise present, as user selectablecapabilities of the camera system, ones of the capabilities that can beused together. If the computing device is not configured to use twocapabilities together, then the program 106 does not present those twocapabilities as user selectable capabilities of the camera system. Theseuser selectable capabilities of the camera system refer to capabilitiesof the camera system that the user can select to use (e.g., concurrentlyrecord video and capture an image). The capabilities can be displayed orotherwise presented in a variety of different manners, such as usingdifferent icons or buttons on a display device, using menu or other listitems, and so forth.

In one or more embodiments, the interface module 120 also enforces thecombinations of capabilities identified in the profiles of the cameraprofile record 122. In such embodiments, if a request is received fromthe program 106 to use multiple capabilities of the camera system 108concurrently, the interface module 120 checks the profiles of the cameraprofile record 122 to verify that there is a profile that indicates therequested multiple capabilities can be used together. If such a profileis present in the camera profile record 122, then the interface module120 allows the modules 112-116 to perform the request; however, if nosuch profile exists, then an appropriate remedial action is taken (e.g.,an indication is returned to the program 106 that the request isdenied).

The program 106 can request a particular combination of capabilities ofone or more camera systems be used in a variety of different manners.For example, the program 106 can specify individual capabilities thatthe program 106 desires to use (e.g., record video at 1080p at 30 fpsconcurrently with displaying the current view as well as capturingimages at a 12 megapixel resolution). By way of another example, theprogram 106 can specify a particular user scenario (e.g., the BalancedVideo and Photo scenario). By way of another example, the program 106can specify a particular profile for each of one or more camera systems(e.g., camera profile 202(2) of FIG. 2, which inherently specify thedefault capabilities identified camera profile 202(2)).

FIGS. 6-11 illustrate examples of different manners in which a programcan use the profiles to present, as user selectable capabilities of thecamera system, ones of the capabilities that can be used together inaccordance with one or more embodiments. FIG. 6 illustrates an examplecomputing device 600 with a display screen 602. Current settings for theprogram (e.g., default settings, settings provided by a user of thecomputing device 600, settings received from another program or device,etc.) identify capabilities of the camera system of the computing device600 including video recording, current view display, and image capturethat the computing device 600 is configured to use concurrently (basedon the profiles of the camera system). Accordingly, a user selectablebutton 604 is displayed indicating recording of video can be selected bythe user and a user selectable button 606 is displayed indicatingcapturing of an image (taking a photograph) can be selected by the user.A current view of the camera system is also displayed on the displayscreen 602.

FIG. 7 illustrates an example computing device 600 with a display screen602. Current settings for the program (e.g., default settings, settingsprovided by a user of the computing device 600, settings received fromanother program or device, etc.) identify capabilities of the camerasystem of the computing device 600 including video recording and currentview display that the computing device 600 is configured to useconcurrently, but not use concurrently with image capture (based on theprofiles of the camera system). Accordingly, a user selectable button604 is displayed indicating recording of video can be selected by theuser, and a button 702 is displayed as shadowed (e.g., illustrated bycross-hatching in FIG. 7) to indicate that capturing of an image (takinga photograph) cannot be selected by the user. A current view of thecamera system is also displayed on the display screen 602.

FIG. 8 illustrates an example computing device 600 with a display screen602. Current settings for the program (e.g., default settings, settingsprovided by a user of the computing device 600, settings received fromanother program or device, etc.) identify capabilities of the camerasystem of the computing device 600 including video recording and imagecapture that the computing device 600 is configured to use concurrently,but not use concurrently with current view display (based on theprofiles of the camera system). Accordingly, a user selectable word orlink 802 is displayed indicating capturing of an image (taking aphotograph) can be selected by the user, and a user selectable word orlink 804 is displayed indicating recording of video can be selected bythe user. However, no current view is displayed on the display screen602.

FIG. 9 illustrates an example computing device 600 with a display screen602. Current settings for the program (e.g., default settings, settingsprovided by a user of the computing device 600, settings received fromanother program or device, etc.) identify capabilities of the camerasystem of the computing device 600 including video recording, currentview display, and image capture that the computing device 600 isconfigured to use concurrently (based on the profiles of the camerasystem). Accordingly, a user selectable word or link 902 is displayedindicating capturing of an image (taking a photograph) can be selectedby the user as well as the resolution at which the image is captured. Auser selectable word or link 904 is displayed indicating recording ofvideo can be selected by the user as well as the resolution at which thevideo is recorded. A current view is automatically displayed on thedisplay screen 602.

FIG. 10 illustrates an example computing device 1000 with a displayscreen 1002. The computing device 1000 includes multiple camera systems.Current settings for the program (e.g., default settings, settingsprovided by a user of the computing device 1000, settings received fromanother program or device, etc.) identify capabilities of the camerasystems of the computing device 1000 including video recording, currentview display, and image capture that the computing device 1000 isconfigured to use concurrently (based on the profiles of the camerasystems). Accordingly, user selectable words or links 1004 are displayedindicating capturing of an image (taking a photograph) and/or recordingof video by a first camera system of the two camera systems can beselected by the user. User selectable words or links 1006 are displayedindicating capturing of an image (taking a photograph) and/or recordingof video by a second camera system of the two camera systems can beselected by the user. A current view of one of the two camera systems isautomatically played back and displayed on the display screen 1002.

FIG. 11 illustrates an example computing device 1000 with a displayscreen 1002. The computing device 1000 includes multiple camera systems.Current settings for the program (e.g., default settings, settingsprovided by a user of the computing device 1000, settings received fromanother program or device, etc.) identify capabilities of the camerasystems of the computing device 1000 that the computing device 1000 isconfigured to use concurrently are video recording and image capturingin a high resolution by a first camera system of the computing device,and video recording in a low (standard) resolution by a second camerasystem of the computing device (based on the profiles of the camerasystems). Accordingly, user selectable words or links 1102 are displayedindicating capturing of an image (taking a photograph) at a highresolution (e.g., high definition, also referred to as HD) and/orrecording of video at a high resolution by a first camera system of thetwo camera systems can be selected by the user. User selectable words orlinks 1104 are displayed indicating recording of video at a lowresolution (e.g., a low or standard definition, also referred to as SD)by a second camera system of the two camera systems can be selected bythe user. No current view of either camera system is displayed on thedisplay screen 1002.

FIG. 12 is a flowchart illustrating an example process 1200 forimproving usability of a device using the profiles identifying cameracapabilities that are usable concurrently in accordance with one or moreembodiments. Process 1200 is carried out by a device, such as computingdevice 100 of FIG. 1 or any other computing device discussed herein, andcan be implemented in software, firmware, hardware, or combinationsthereof. Process 1200 is shown as a set of acts and is not limited tothe order shown for performing the operations of the various acts.Process 1200 is an example process for improving usability of a deviceusing the profiles identifying camera capabilities that are usableconcurrently; additional discussions of improving usability of a deviceusing the profiles identifying camera capabilities that are usableconcurrently are included herein with reference to different figures.

In process 1200, a record of multiple profiles associated with a camerasystem of a computing device is accessed (act 1202). Each profile of themultiple profiles identifies multiple, different capabilities of thecamera system that the computing device is configured to useconcurrently, as discussed above. Various different capabilities can beidentified, such as any combination of the capabilities discussed abovein Table I, Table II, and/or Table III.

An indication of the multiple profiles are provided to a program of thecomputing device (act 1204). The indication can be, for example, themultiple profiles or an indication in a storage device where themultiple profiles are stored.

A request to concurrently use at least two of the capabilities of thecamera system is received from the program (act 1206). For example, arequest to capture an image concurrently with recording video can bereceived.

The program is allowed to concurrently use the at least two capabilitiesof the camera system in response to at least one of the multipleprofiles indicating the computing device is configured to allow theprogram to use the requested capabilities concurrently (act 1208).However, if none of the multiple profiles indicates that the computingdevice is configured to use the requested at least two capabilitiesconcurrently, then the programs is not allowed to use the requestedcapabilities concurrently.

FIG. 13 is a flowchart illustrating another example process 1300 forimproving usability of a device using the profiles identifying cameracapabilities that are usable concurrently in accordance with one or moreembodiments. Process 1300 is carried out by a device, such as computingdevice 100 of FIG. 1 or any other computing device discussed herein, andcan be implemented in software, firmware, hardware, or combinationsthereof. Process 1300 is shown as a set of acts and is not limited tothe order shown for performing the operations of the various acts.Process 1300 is an example process for improving usability of a deviceusing the profiles identifying camera capabilities that are usableconcurrently; additional discussions of improving usability of a deviceusing the profiles identifying camera capabilities that are usableconcurrently are included herein with reference to different figures.

In process 1300, multiple profiles associated with a camera system of acomputing device are obtained (act 1302). Each profile of the multipleprofiles identifies multiple, different capabilities of the camerasystem that the computing device is configured to use concurrently asdiscussed above.

A combination of capabilities identified in one of the multiple profilesis selected (act 1304). The selection can be made in a variety ofdifferent manners, such as in response to user specified configurationsettings (e.g., indicating desired resolutions for image capture orvideo recording, indicating whether image stabilization during videorecording is desired, etc.), default configuration settings (e.g.,indicating lower resolution images or video are to be used to conservestorage space or power, indicating face detection can be performed whencapturing images to improve focusing, etc.), and so forth.

Ones of the capabilities identified in the selected combination aredisplayed or otherwise presented as user selectable capabilities of thecamera system (act 1306). The user selectable capabilities can bedisplayed or otherwise presented in various manners as discussed above,such as using buttons, icons, words or links, menu items, and so forth.The user selectable capabilities presented in act 1306 can be all of thecapabilities indicated in the one of the multiple profiles identified inact 1304, or alternatively a subset (e.g., as desired by the program ora user of the program) of the capabilities indicated in the one of themultiple profiles identified in act 1304. One or more requests toperform user selected capabilities can be provided to the camera system,which carries out the requests. For example, image capture is performedin response to user selection of an image capture button, videorecording is performed in response to user selection of a video recordbutton, and so forth.

In the discussions herein, various different capabilities of camerasystems are discussed. It should be noted that these differentcapabilities are examples, and that various other capabilities can beidentified in profiles of a camera system. In one or more embodiments,these other capabilities refer to additional data or informationavailable from other camera systems. For example, an additional camerasystem may be included in a computing device to facilitate focusing by acamera system, to facilitate determining depth of field of a scene beingcaptured, and so forth.

It should also be noted that different capabilities in a profile caninclude capabilities leveraged or otherwise used by the camera systemeven if not provided by the camera system itself. Other programs, suchas an operating system of the computing device that includes the camerasystem, can provide some capabilities (e.g., image stabilization) thatcan be included in a profile of the camera system. This allows, forexample, the camera system to use a capability of another program (e.g.,image stabilization) in certain situations (e.g., in which the camerasystem runs fast enough that the other program can be used).

It should also be noted that a profile for a camera system can identifyone or more default capabilities for the profile. These defaultcapabilities can be determined by a vendor or designer of the camerasystem. For example, a profile may indicate a capability of capturingimages at 20 megapixels resolution or less, and identify capturingimages at 12 megapixels as the default capability for capturing images.By way of another example, a profile may indicate a capability ofrecording video at 1080p resolution or less, and identify recordingvideo at 1080p resolution as the default capability for recording video.These default capabilities can also vary based on capabilities of thecomputing device, such as default capabilities of higher resolution orframe rates for more powerful (e.g., greater than a threshold processorspeed) computing devices and lower resolution or frame rates for lesspowerful (e.g., not greater than a threshold processor speed) computingdevices. In response to a request from a program to use a particularprofile, without the program specifying which specific capabilities ofthe particular profile to use, the camera system uses the defaultcapabilities for the particular profile.

It should also be noted that the techniques discussed herein allow acamera system to identify or advertise various different combinations ofcapabilities of the camera system that can be used concurrently. Thecamera system is not relegated to identifying to a program only a lowestcommon capability (e.g., frame rate, resolution, etc.) that is alwaysusable; rather, the camera system can identify various differentcombinations of capabilities to the program.

Although particular functionality is discussed herein with reference toparticular modules, it should be noted that the functionality ofindividual modules discussed herein can be separated into multiplemodules, and/or at least some functionality of multiple modules can becombined into a single module. Additionally, a particular modulediscussed herein as performing an action includes that particular moduleitself performing the action, or alternatively that particular moduleinvoking or otherwise accessing another component or module thatperforms the action (or performs the action in conjunction with thatparticular module). Thus, a particular module performing an actionincludes that particular module itself performing the action and/oranother module invoked or otherwise accessed by that particular moduleperforming the action.

FIG. 14 illustrates an example system generally at 1400 that includes anexample computing device 1402 that is representative of one or moresystems and/or devices that may implement the various techniquesdescribed herein. The computing device 1402 may be, for example, aserver of a service provider, a device associated with a client (e.g., aclient device), an on-chip system, and/or any other suitable computingdevice or computing system.

The example computing device 1402 as illustrated includes a processingsystem 1404, one or more computer-readable media 1406, and one or moreI/O Interfaces 1408 that are communicatively coupled, one to another.Although not shown, the computing device 1402 may further include asystem bus or other data and command transfer system that couples thevarious components, one to another. A system bus can include any one orcombination of different bus structures, such as a memory bus or memorycontroller, a peripheral bus, a universal serial bus, and/or a processoror local bus that utilizes any of a variety of bus architectures. Avariety of other examples are also contemplated, such as control anddata lines.

The processing system 1404 is representative of functionality to performone or more operations using hardware. Accordingly, the processingsystem 1404 is illustrated as including hardware elements 1410 that maybe configured as processors, functional blocks, and so forth. This mayinclude implementation in hardware as an application specific integratedcircuit or other logic device formed using one or more semiconductors.The hardware elements 1410 are not limited by the materials from whichthey are formed or the processing mechanisms employed therein. Forexample, processors may be comprised of semiconductor(s) and/ortransistors (e.g., electronic integrated circuits (ICs)). In such acontext, processor-executable instructions may beelectronically-executable instructions.

The computer-readable media 1406 is illustrated as includingmemory/storage 1412. The memory/storage 1412 represents memory/storagecapacity associated with one or more computer-readable media. Thememory/storage 1412 may include volatile media (such as random accessmemory (RAM)) and/or nonvolatile media (such as read only memory (ROM),Flash memory, optical disks, magnetic disks, and so forth). Thememory/storage 1412 may include fixed media (e.g., RAM, ROM, a fixedhard drive, and so on) as well as removable media (e.g., Flash memory, aremovable hard drive, an optical disc, and so forth). Thecomputer-readable media 1406 may be configured in a variety of otherways as further described below.

The one or more input/output interface(s) 1408 are representative offunctionality to allow a user to enter commands and information tocomputing device 1402, and also allow information to be presented to theuser and/or other components or devices using various input/outputdevices. Examples of input devices include a keyboard, a cursor controldevice (e.g., a mouse), a microphone (e.g., for voice inputs), ascanner, touch functionality (e.g., capacitive or other sensors that areconfigured to detect physical touch), a camera (e.g., which may employvisible or non-visible wavelengths such as infrared frequencies todetect movement that does not involve touch as gestures), and so forth.Examples of output devices include a display device (e.g., a monitor orprojector), speakers, a printer, a network card, tactile-responsedevice, and so forth. Thus, the computing device 1402 may be configuredin a variety of ways as further described below to support userinteraction.

The computing device 1402 also includes a camera system 1414. The camerasystem 1414 provides various different capabilities such as videorecording, image capture, current view display, and so forth asdiscussed above. The camera system 1414 can implement, for example, thecamera system 108 of FIG. 1.

Various techniques may be described herein in the general context ofsoftware, hardware elements, or program modules. Generally, such modulesinclude routines, programs, objects, elements, components, datastructures, and so forth that perform particular tasks or implementparticular abstract data types. The terms “module,” “functionality,” and“component” as used herein generally represent software, firmware,hardware, or a combination thereof. The features of the techniquesdescribed herein are platform-independent, meaning that the techniquesmay be implemented on a variety of computing platforms having a varietyof processors.

An implementation of the described modules and techniques may be storedon or transmitted across some form of computer-readable media. Thecomputer-readable media may include a variety of media that may beaccessed by the computing device 1402. By way of example, and notlimitation, computer-readable media may include “computer-readablestorage media” and “computer-readable signal media.”

“Computer-readable storage media” refers to media and/or devices thatenable persistent storage of information and/or storage that istangible, in contrast to mere signal transmission, carrier waves, orsignals per se. Thus, computer-readable storage media refers tonon-signal bearing media. The computer-readable storage media includeshardware such as volatile and non-volatile, removable and non-removablemedia and/or storage devices implemented in a method or technologysuitable for storage of information such as computer readableinstructions, data structures, program modules, logic elements/circuits,or other data. Examples of computer-readable storage media may include,but are not limited to, RAM, ROM, EEPROM, flash memory or other memorytechnology, CD-ROM, digital versatile disks (DVD) or other opticalstorage, hard disks, magnetic cassettes, magnetic tape, magnetic diskstorage or other magnetic storage devices, or other storage device,tangible media, or article of manufacture suitable to store the desiredinformation and which may be accessed by a computer.

“Computer-readable signal media” refers to a signal-bearing medium thatis configured to transmit instructions to the hardware of the computingdevice 1402, such as via a network. Signal media typically may embodycomputer readable instructions, data structures, program modules, orother data in a modulated data signal, such as carrier waves, datasignals, or other transport mechanism. Signal media also include anyinformation delivery media. The term “modulated data signal” means asignal that has one or more of its characteristics set or changed insuch a manner as to encode information in the signal. By way of example,and not limitation, communication media include wired media such as awired network or direct-wired connection, and wireless media such asacoustic, RF, infrared, and other wireless media.

As previously described, the hardware elements 1410 andcomputer-readable media 1406 are representative of instructions,modules, programmable device logic and/or fixed device logic implementedin a hardware form that may be employed in some embodiments to implementat least some aspects of the techniques described herein. Hardwareelements may include components of an integrated circuit or on-chipsystem, an application-specific integrated circuit (ASIC), afield-programmable gate array (FPGA), a complex programmable logicdevice (CPLD), and other implementations in silicon or other hardwaredevices. In this context, a hardware element may operate as a processingdevice that performs program tasks defined by instructions, modules,and/or logic embodied by the hardware element as well as a hardwaredevice utilized to store instructions for execution, e.g., thecomputer-readable storage media described previously.

Combinations of the foregoing may also be employed to implement varioustechniques and modules described herein. Accordingly, software,hardware, or program modules and other program modules may beimplemented as one or more instructions and/or logic embodied on someform of computer-readable storage media and/or by one or more hardwareelements 1410. The computing device 1402 may be configured to implementparticular instructions and/or functions corresponding to the softwareand/or hardware modules. Accordingly, implementation of modules as amodule that is executable by the computing device 1402 as software maybe achieved at least partially in hardware, e.g., through use ofcomputer-readable storage media and/or hardware elements 1410 of theprocessing system. The instructions and/or functions may beexecutable/operable by one or more articles of manufacture (for example,one or more computing devices 1402 and/or processing systems 1404) toimplement techniques, modules, and examples described herein.

As further illustrated in FIG. 14, the example system 1400 enablesubiquitous environments for a seamless user experience when runningapplications on a personal computer (PC), a television device, and/or amobile device. Services and applications run substantially similar inall three environments for a common user experience when transitioningfrom one device to the next while utilizing an application, playing avideo game, watching a video, and so on.

In the example system 1400, multiple devices are interconnected througha central computing device. The central computing device may be local tothe multiple devices or may be located remotely from the multipledevices. In one or more embodiments, the central computing device may bea cloud of one or more server computers that are connected to themultiple devices through a network, the Internet, or other datacommunication link.

In one or more embodiments, this interconnection architecture enablesfunctionality to be delivered across multiple devices to provide acommon and seamless experience to a user of the multiple devices. Eachof the multiple devices may have different physical requirements andcapabilities, and the central computing device uses a platform to enablethe delivery of an experience to the device that is both tailored to thedevice and yet common to all devices. In one or more embodiments, aclass of target devices is created and experiences are tailored to thegeneric class of devices. A class of devices may be defined by physicalfeatures, types of usage, or other common characteristics of thedevices.

In various implementations, the computing device 1402 may assume avariety of different configurations, such as for computer 1416, mobile1418, and television 1420 uses. Each of these configurations includesdevices that may have generally different constructs and capabilities,and thus the computing device 1402 may be configured according to one ormore of the different device classes. For instance, the computing device1402 may be implemented as the computer 1416 class of a device thatincludes a personal computer, desktop computer, a multi-screen computer,laptop computer, netbook, and so on.

The computing device 1402 may also be implemented as the mobile 1418class of device that includes mobile devices, such as a mobile phone,portable music player, portable gaming device, a tablet computer, amulti-screen computer, and so on. The computing device 1402 may also beimplemented as the television 1420 class of device that includes deviceshaving or connected to generally larger screens in casual viewingenvironments. These devices include televisions, set-top boxes, gamingconsoles, and so on.

The techniques described herein may be supported by these variousconfigurations of the computing device 1402 and are not limited to thespecific examples of the techniques described herein. This functionalitymay also be implemented all or in part through use of a distributedsystem, such as over a “cloud” 1422 via a platform 1424 as describedbelow.

The cloud 1422 includes and/or is representative of a platform 1424 forresources 1426. The platform 1424 abstracts underlying functionality ofhardware (e.g., servers) and software resources of the cloud 1422. Theresources 1426 may include applications and/or data that can be utilizedwhile computer processing is executed on servers that are remote fromthe computing device 1402. Resources 1426 can also include servicesprovided over the Internet and/or through a subscriber network, such asa cellular or Wi-Fi network.

The platform 1424 may abstract resources and functions to connect thecomputing device 1402 with other computing devices. The platform 1424may also serve to abstract scaling of resources to provide acorresponding level of scale to encountered demand for the resources1426 that are implemented via the platform 1424. Accordingly, in aninterconnected device embodiment, implementation of functionalitydescribed herein may be distributed throughout the system 1400. Forexample, the functionality may be implemented in part on the computingdevice 1402 as well as via the platform 1424 that abstracts thefunctionality of the cloud 1422.

In the discussions herein, various different embodiments are described.It is to be appreciated and understood that each embodiment describedherein can be used on its own or in connection with one or more otherembodiments described herein.

A method comprising: accessing, by a first camera system of a computingdevice, a record of multiple profiles associated with the first camerasystem, each profile of the multiple profiles identifying multiple,different capabilities of the first camera system that the computingdevice is configured to use concurrently; providing an indication of themultiple profiles to a program of the computing device to allow theprogram to know which capabilities of the first camera system thecomputing device is configured to use concurrently; receiving from theprogram a request to concurrently use at least two of the capabilitiesof the first camera system; and allowing the program to concurrently usethe at least two capabilities in response to at least one of themultiple profiles indicating the computing device is configured to allowthe program to use the at least two capabilities concurrently.

Alternatively or in addition to any of the above described methods, anyone or combination of: the multiple, different capabilities of the firstcamera system comprising two or more capabilities selected from thegroup including: recording video at one or more resolutions, capturingimages at one or more resolutions, and displaying a current view of thefirst camera system at one or more resolutions; the multiple, differentcapabilities of the first camera system including capturing images atone or more resolutions as well as at least one capability selected fromthe grouping including: whether face detection is supported whencapturing images, whether video stabilization is supported whencapturing images, whether capturing variable photo sequences issupported, and whether image capture using high dynamic range imaging issupported; the multiple, different capabilities of the first camerasystem including recording video at one or more resolutions as well asat least one capability selected from the grouping including: whetherface detection is supported when recording video, whether videostabilization is supported when recording video, and whether video highdynamic range imaging is supported; one of the multiple profilesassociated with the first camera system being identified as associatedwith one of multiple user scenarios, and allowing the program to selectcapabilities of the first camera system by selection of the one of themultiple profiles associated with the first camera system; for one ofthe multiple profiles associated with the first camera system, theprofile including an identifier of at least one profile of multipleprofiles associated with a second camera system of the computing device,each identified profile of the multiple profiles associated with thesecond camera system identifying multiple, different capabilities of thesecond camera system that the computing device is configured to useconcurrently with the capabilities in the one profile of the firstcamera system, the method further comprising: providing an indication ofthe identified profiles associated with the second camera system to theprogram; receiving from the program a request to use at least one of thecapabilities of the second camera system concurrently with the at leasttwo of the capabilities of the first camera system; and allowing theprogram to concurrently use the at least two capabilities of the firstcamera system and the at least one capability of the second camerasystem in response to one of the multiple profiles associated with thefirst camera system and an identified one of the multiple profilesassociated with the second camera system indicating the computing deviceis configured to allow the program to use the at least two capabilitiesof the first camera system and the at least one capability of the secondcamera system concurrently.

Alternatively or in addition to any of the above described methods, oneof the first camera system and the second camera system having a frontfacing lens on the computing device, and the other of the first camerasystem and the second camera system having a rear facing lens on thecomputing device.

A method comprising: obtaining, from a first camera system of acomputing device, multiple profiles associated with the first camerasystem, each profile of the multiple profiles identifying multiple,different capabilities of the first camera system that the computingdevice is configured to use concurrently; selecting a combination ofcapabilities identified in one of the multiple profiles associated withthe first camera system that the computing device is configured to useconcurrently; and presenting, as user selectable capabilities of thefirst camera system, ones of the capabilities identified in the selectedcombination.

Alternatively or in addition to any of the above described methods, anyone or combination of: the multiple, different capabilities of the firstcamera system comprising two or more capabilities selected from thegroup including: recording video at one or more resolutions, capturingimages at one or more resolutions, and displaying a current view of thefirst camera system at one or more resolutions; the multiple, differentcapabilities of the first camera system including capturing images atone or more resolutions as well as at least one capability selected fromthe grouping including: whether face detection is supported whencapturing images, whether video stabilization is supported whencapturing images, whether capturing variable photo sequences issupported, and whether image capture using high dynamic range imaging issupported; the multiple, different capabilities of the first camerasystem including recording video at one or more resolutions as well asat least one capability selected from the grouping including: whetherface detection is supported when recording video, whether videostabilization is supported when recording video, and whether video highdynamic range imaging is supported; one of the multiple profilesassociated with the first camera system being identified as associatedwith one of multiple user scenarios, and the selecting comprisingselecting the combination of capabilities by selecting the one of themultiple profiles associated with the first camera system; furthercomprising: obtaining, from a second camera system, multiple profilesassociated with the second camera system of the computing device, eachprofile of the multiple profiles associated with the second camerasystem identifying multiple, different capabilities of the second camerasystem that the computing device is configured to use concurrently;obtaining, from each of at least one profile of the multiple profilesassociated with the first camera system, an identifier of a profile ofthe multiple profiles associated with the second camera system thatidentifies multiple, different capabilities of the second camera systemthat the computing device is configured to use concurrently with thecapabilities identified in the profile of the first camera system; andthe selecting comprising selecting only a combination of capabilities ofthe first camera system and the second camera system that the computingdevice is configured to use concurrently.

Alternatively or in addition to any of the above described methods, oneof the first camera system and the second camera system having a frontfacing lens on the computing device, and the other of the first camerasystem and the second camera system having a rear facing lens on thecomputing device.

A computing device including a first camera system comprising: camerahardware including a lens and an image sensor; an image capture moduleconfigured to manage capturing of images using the camera hardware; avideo record module configured to manage the recording of video usingthe camera hardware; a preview module configured to manage display of acurrent view being captured by the camera hardware; a camera profilerecord included in a storage device of the computing device, the cameraprofile record configured to maintain a record of multiple profilesassociated with the first camera system, each profile of the multipleprofiles identifying multiple, different capabilities of the imagecapture module, the video record module, and the preview module that thecomputing device is configured to use concurrently; and an interfacemodule configured to access the storage device to obtain the multipleprofiles and provide the multiple profiles to a program of the computingdevice, receive from the program a request to concurrently use at leasttwo of the capabilities of the first camera system, and allow theprogram to concurrently use the at least two capabilities in response toat least one of the multiple profiles indicating the computing device isconfigured to allow the program to use the at least two capabilitiesconcurrently.

Alternatively or in addition to any of the above described computingdevices, any one or combination of: the multiple, different capabilitiesof the first camera system comprising two or more capabilities selectedfrom the group including: recording video at one or more resolutions,capturing images at one or more resolutions, and displaying a currentview of the first camera system at one or more resolutions; themultiple, different capabilities of the first camera system includingcapturing images at one or more resolutions as well as at least onecapability selected from the grouping including: whether face detectionis supported when capturing images, whether video stabilization issupported when capturing images, whether capturing variable photosequences is supported, and whether image capture using high dynamicrange imaging is supported; the multiple, different capabilities of thefirst camera system including recording video at one or more resolutionsas well as at least one capability selected from the grouping including:whether face detection is supported when recording video, whether videostabilization is supported when recording video, and whether video highdynamic range imaging is supported; for each of one or more of themultiple profiles associated with the first camera system, the profileassociated with the first camera system including an identifier of atleast one profile of multiple profiles associated with a second camerasystem, each profile of the multiple profiles associated with the secondcamera system identifying multiple, different capabilities of the secondcamera system that the computing device is configured to useconcurrently, each identified profile of the second camera systemidentifying multiple, different capabilities of the second camera systemthat the computing device is configured to use concurrently with thecapabilities in the profile of the first camera system, and theinterface module further configured to receive from the program arequest to use at least one of the capabilities of the second camerasystem concurrently with the at least two of the capabilities of thefirst camera system, and allow the program to use the at least twocapabilities of the first camera system and the at least one capabilityof the second camera system in response to one of the multiple profilesassociated with the first camera system and one of the multiple profilesassociated with the second camera system identified by the one profileof the first camera system indicating the computing device is configuredto allow the program to use the at least two capabilities of the firstcamera system and the at least one capability of the second camerasystem concurrently; both of the first camera system and the secondcamera system having a lens on the computing device pointing insubstantially the same direction.

Although the subject matter has been described in language specific tostructural features and/or methodological acts, it is to be understoodthat the subject matter defined in the appended claims is notnecessarily limited to the specific features or acts described above.Rather, the specific features and acts described above are disclosed asexample forms of implementing the claims.

What is claimed is:
 1. A method comprising: accessing a record ofmultiple profiles associated with a first camera system, a particularprofile of the multiple profiles identifying a combination ofcapabilities of the first camera system that are usable concurrently,the particular profile of the multiple profiles identifying a profile ofa second camera system that is usable concurrently with the combinationof capabilities of the first camera system associated with theparticular profile; receiving a request to concurrently use thecombination of capabilities of the first camera system; and allowing thecombination of capabilities to be usable concurrently based on theparticular profile of the multiple profiles including the combination ofcapabilities.